Preface
Page: ii-iii (2)
Author: Gyanendra Verma and Rajesh Doriya
DOI: 10.2174/9789815079210123010002
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Deep Learning: History and Evolution
Page: 1-18 (18)
Author: Jaykumar Suraj Lachure*, Gyanendra Verma and Rajesh Doriya
DOI: 10.2174/9789815079210123010004
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Abstract
Recently, deep learning (DL) computing has become more popular in the
machine learning (ML) community. In the field of ML, the most widely used
computational approach is DL. It can solve many complex problems, cognitive tasks,
and matching problems without any human performance or interface. ML cannot
handle large amounts of data and DL can easily handle it. In the last few years, the field
of DL has witnessed success in a range of applications. DL outperformed in many
application domains, e.g., robotics, bioinformatics, agriculture, cybersecurity, natural
language processing (NLP), medical information processing, etc. Despite various
reviews on the state of the art in DL, they all concentrated on a single aspect of it,
resulting in a general lack of understanding. There is a need to provide a better
beginning point for comprehending DL. This paper aims to provide a more
comprehensive overview of DL, including current advancements. This paper discusses
the importance of DL and introduces DL approaches and networks. It then explains
convolutional neural networks (CNNs), the most widely used DL network type and
subsequent evolved model starting with LeNET, AlexNet with the Letnet-5, AlexNet,
GoogleNet, and ResNet networks, and ending with the High-Resolution network. This
paper also discusses the difficulties and solutions to help researchers recognize research
gaps for DL applications.
Application of Artificial Intelligence in Medical Imaging
Page: 19-32 (14)
Author: Sampurna Panda, Rakesh Kumar Dhaka and Babita Panda*
DOI: 10.2174/9789815079210123010005
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Abstract
The emergence of the Internet of Things (IoT) and Artificial Intelligence
(AI) applications in many industries is due to recent developments in technology and
connectivity. This paper outlines various industry initiatives in healthcare that utilize
machine learning techniques. To meet this rising demand, considerable investment is
required to develop new medical imaging algorithms, such as those that can be used to
diagnose disease diagnostic systems errors, which can yield ambiguous medical
treatments. Early disease in imaging is usually predicted by machine learning and deep
learning algorithms. Imaging tools use machine learning and deep learning techniques
to analyze early disease. Medical imaging is on the cutting edge of deep learning
techniques, specifically the application of convolution neural networks. The supervised
or unsupervised algorithms are applied to a dataset containing specific instances, and
then the predictions are displayed. Machines and deep learning approaches are
excellent for data classification and automated decision-making.
Classification Tool to Predict the Presence of Colon Cancer Using Histopathology Images
Page: 33-46 (14)
Author: Saleena Thorayanpilackal Sulaiman*, Muhamed Ilyas Poovankavil and Abdul Jabbar Perumbalath
DOI: 10.2174/9789815079210123010006
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Abstract
The proposed model compares the efficiency of CNN and ResNet50 in the
field of digital pathology images. Deep learning methods are widely used in all fields
of disease detection, diagnosis, segmentation, and classification. CNN is the widely
used image classification algorithm. But it may show less accuracy in case of complex
structures like pathology images. Residual Networks are a good choice for pathology
image classification because the morphology of digital pathology images is very
difficult to distinguish. Colon cancer is one of the common cancers, and it is one of the
fatal diseases. If early-stage detection has been done using biopsy results, it will
decrease the mortality rate. ResNet50 is selected among the variants as its
computational complexity is moderate and provides high accuracy in classification as
compared to others. The accuracy metric used here is the training and validation
accuracy and loss. The training and validation accuracy of ResNet50 is 89.1% and
90.62%, respectively, whereas the training loss and validation loss are 26.7% and
24.33%, respectively. At the same time, for CNN, the accuracy is 84.82% and 78.12%
and the loss is 36.51% and 47.33% .
Deep Learning For Lung Cancer Detection
Page: 47-59 (13)
Author: Sushila Ratre*, Nehha Seetharaman and Aqib Ali Sayed
DOI: 10.2174/9789815079210123010007
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Abstract
By detecting lung cancer in advance, doctors can make the right decision to
treat patients to ensure that they live long and healthy lives. This research aims to build
a CNN model using a pre-trained model and functional API that would classify if a
person had lung cancer or not based on a CT scan. This research uses CT scan images
as input for the prediction model from the LUNA16 [Luna Nodule Analysis 2016]
dataset for experimenting by using ResNet 50 and VGG 16. ResNet50 showed slightly
high accuracy on test data compared to VGG16, which is 98%.
Exploration of Medical Image Super-Resolution in terms of Features and Adaptive Optimization
Page: 60-72 (13)
Author: Jayalakshmi Ramachandran Nair*, Sumathy Pichai Pillai and Rajkumar Narayanan
DOI: 10.2174/9789815079210123010008
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Abstract
Medical image processing takes many steps to capture, process, and convert
the images for further analysis. The images are susceptible to distortions due to various
factors related to the analysis tools, environment, system-generated faults, and so on.
Image enhancement deals with enhancing the quality and resolution of images for
accurately analyzing the original information from the images. The primary motivating
aspect of research and reconstruction of such high-quality images and their challenges
is image super-resolution for image upgrading. This chapter focuses on various image-enhancing strategies in implementing the super-resolution process. In this work, the
methodologies of various image-enhancing strategies are explained clearly to provide
the parameter selection points, feature comparisons, and performance evaluations that
apply to high-resolution image processing. The drawbacks and challenges of each
strategy are discussed to investigate the effectiveness of the methodologies. Further
research is explored to find hybrid methods on various deep learning architectures to
achieve higher accuracy in the field of medical image super-resolution.
Analyzing the Performances of Different ML Algorithms on the WBCD Dataset
Page: 73-89 (17)
Author: Trupthi Muralidharr*, Prajwal Sethu Madhav, Priyanka Prashanth Kumar and Harshawardhan Tiwari
DOI: 10.2174/9789815079210123010009
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Abstract
Breast cancer is a disease with a high fatality rate each year. It is the most
frequent cancer in women and the leading cause of death in women worldwide. The
method of machine learning (ML) is an excellent way to categorize data, particularly in
the medical industry. It is widely used for decision-making, categorization, and
analysis. The main objective of this study is to analyze the performances of different
ML algorithms on the WBCD dataset. In this paper, we analysed the performances of
different ML algorithms, i.e., XGboost Classifier, KNN, Random Forest, and SVM
(Support Vector Machine). Accuracy was used in the study to determine the
performance. Experimental result shows that SVMs perform better and are more
accurate than KNNs as the amount of training data increases. The SVM produces better
results when the main component (PC) value grows and the accuracy rating exceeds the
kNN.
Application and Evaluation of Machine Learning Algorithms in Classifying Cardiotocography (CTG) Signals
Page: 90-102 (13)
Author: Srishti Sakshi Sinha and Uma Vijayasundaram*
DOI: 10.2174/9789815079210123010010
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Abstract
Cardiotocography (CTG) is a clinical procedure performed to monitor fetal
health by recording uterine contractions and the fetal heart rate continuously. This
procedure is carried out mainly in the third trimester of pregnancy. This work aims at
proving the significance of upsampling the data using SMOTE (Synthetic Minority
Oversampling Technique) in classifying the CTG traces. The project includes the
comparison of different Machine Learning approaches, namely, Logistic Regression,
Support Vector Machine (SVM), Naïve Bayes, Decision Tree, Random Forest, and Knearest Neighbor (KNN) classifiers on the CTG dataset to classify the records into
three classes: normal, suspicious and pathological. The results prove that applying
SMOTE increases the performance of the classifiers.
Deep SLRT: The Development of Deep Learning based Multilingual and Multimodal Sign Language Recognition and Translation Framework
Page: 103-128 (26)
Author: Natarajan Balasubramanian and Elakkiya Rajasekar*
DOI: 10.2174/9789815079210123010011
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Abstract
Developing deep neural models for continuous recognition of sign gestures
and generation of sign videos from spoken sentences is still challenging and requires
much investigation in earlier studies. Although the recent approaches provide plausible
solutions for these tasks, they still fail to perform well in handling continuous sentences
and visual quality aspects. The recent advancements in deep learning techniques
envisioned new milestones in handling such complex tasks and producing impressive
results. This paper proposes novel approaches to develop a deep neural framework for
recognizing multilingual sign datasets and multimodal sign gestures. In addition to that,
the proposed model generates sign gesture videos from spoken sentences. In the first
fold, it deals with the sign gesture recognition tasks using a hybrid CNN-LSTM
algorithm. The second fold uses the hybrid NMT-GAN techniques to produce highquality sign gesture videos. The proposed model has been evaluated using different
quality metrics. We also compared the proposed model performance qualitatively using
different benchmark sign language datasets. The proposed model achieves 98%
classification accuracy and improved video quality in sign language recognition and
video generation tasks.
Hybrid Convolutional Recurrent Neural Network for Isolated Indian Sign Language Recognition
Page: 129-145 (17)
Author: Elakkiya Rajasekar, Archana Mathiazhagan and Elakkiya Rajalakshmi*
DOI: 10.2174/9789815079210123010012
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Abstract
Even though the hearing and vocally impaired populace rely entirely on Sign
Language (SL) as a way of communication, the majority of the worldwide people are
unable to interpret it. This creates a significant language barrier between these two
categories. The need for developing Sign Language Recognition (SLR) systems has
arisen as a result of the communication breakdown between the deaf-mute and the
general populace. This paper proposes a Hybrid Convolutional Recurrent Neural
Network-based (H-CRNN) framework for Isolated Indian Sign Language recognition.
The proposed framework is divided into two modules: the Feature Extraction module
and the Sign Model Recognition module. The Feature Extraction module exploits the
Convolutional Neural Network-based framework, and the Model recognition exploits
the LSTM/GRU-based framework for Indian sign representation of English Alphabets
and numbers. The proposed models are evaluated using a newly created Isolated Sign
dataset called ISLAN, the first multi-signer Indian Sign Language representation for
English Alphabets and Numbers. The performance evaluation with the other state-o-
-the-art neural network models have shown that the proposed H-CRNN model has
better accuracy.
A Proposal of an Android Mobile Application for Senior Citizen Community with Multi-lingual Sentiment Analysis Chatbot
Page: 146-166 (21)
Author: Harshee Pitroda*, Manisha Tiwari and Ishani Saha
DOI: 10.2174/9789815079210123010013
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Abstract
Throughout these years, technology has transformed our world and has
become an integral part of our everyday lives. This massive digitalization needs to take
into consideration the elderly community too. However, the elderly community is
usually digitally excluded, but despite these various and diverse difficulties, they
remain driven, engaged, and eager to make an effort, to incorporate developing digital
technologies into their daily life. Hence, this research implements the functionality of
analyzing and determining the emotions of senior citizens by utilizing various natural
languages processing-based machine learning techniques like SVM, Random Forest,
and Decision Tree. Different algorithms were used, and various parameters were
compared to obtain the results. It is seen that SVM gave the best results with an
accuracy of 88%. The android application “Bandhu – your forever friend” would be
accessible and usable by the elderly community. In addition, this proposed application
offers various other features, including learning a new language and listening to the
regional songs which would cater to the multicultural requirements in a diverse country
like India, recording their audio stories to preserve the ethnic culture and inspire others,
and lastly becoming tech-savvy by following easy video tutorials. These features would
not only keep them engaged but also tackle their loneliness and isolation to some
extent, as all these features were considered after surveying around 100 senior citizens'
lifestyles and needs. This app will also make them more digitally independent. All the
above-mentioned functionalities have been implemented using the programming
language Java and the android application is built in Android Studio. Also, the entire
app is in the Hindi language, considering that this language is the most preferred and
spoken language in India.
Technology Inspired-Elaborative Education Model (TI-EEM): A futuristic need for a Sustainable Education Ecosystem
Page: 167-182 (16)
Author: Anil Verma, Aman Singh*, Divya Anand and Rishika Vij
DOI: 10.2174/9789815079210123010014
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Abstract
Before three decades, providing higher education infrastructure for young
aspirants in their locality was a challenge for India. With 5164 higher education
institutions, including universities, colleges, and stand-alone institutions, India has
surpassed the United States as the global leader in educational infrastructure over the
last two decades. This work intends to propose an elaborative education ecosystem for
sustainable quality education. The secondary data from top global ranking agencies
(Times, QS, Webometric, Scimago, and Shanghai Ranking) is deployed to avoid the
cost of a worldwide survey for primary data and the execution time. Quality education's
quantitative and qualitative parameters are reviewed separately on different scales. The
need for the proposed model is evaluated on academic reputation, employer reputation,
faculty-student ratio, citations per faculty, international faculty, international students,
and infrastructure on the 7-point quality scale. The proposed elaborative model will
establish a robust quality education ecosystem on global parameters. The proposed
model emphasizes the use of emerging technologies including the Internet of Things
(IoT), Artificial Intelligence (AI), and Blockchain (BC), in the education industry.
Knowledge Graphs for Explaination of Black-Box Recommender System
Page: 183-205 (23)
Author: Mayank Gupta and Poonam Saini*
DOI: 10.2174/9789815079210123010015
PDF Price: $15
Abstract
Machine learning models, particularly black-box, make powerful decisions
and recommendations. However, these models lack transparency and hence cannot be
explained directly. The respective decisions need explanation with the help of
techniques to gain users' trust and ensure the correct interpretation of a particular
recommendation. Nowadays, Knowledge graphs (K-graph) has been recognized as a
powerful tool to generate explanations for the predictions or decisions of black-box
models. The explainability of the machine learning models enhances transparency
between the user and the model. Further, this could result in better decision support
systems, improvised recommender systems, and optimal predictive models.
Unfortunately, while these black box devices have no detail on the reasons behind their
forecasts, they lack clarity. White box structures, on the other hand, will quickly
produce interpretations due to their existence. The chapter presents an exhaustive
review and step-by-step description for using knowledge graphs in generating
explanations for black-box recommender systems, which further helps in generating
more persuasive and personalized explanations for the recommended items. We also
implement a case study on the MovieLens dataset and WikiData using K-graph to
generate accurate explanations.
Universal Price Tag Reader for Retail Supermarket
Page: 206-219 (14)
Author: Jay Prajapati* and Siba Panda
DOI: 10.2174/9789815079210123010016
PDF Price: $15
Abstract
Retail supermarkets are an essential part of today's economy, and managing
them is a tedious task. One of the major problems faced by supermarkets today is to
keep track of the items available on the racks. Currently, the track of the product on the
shelf is kept by price tag readers, which work on a barcode detection methodology that
has to be customized for each store. On the other hand, if barcodes are not present on
the price tags, the data is manually fed by the staff of the store, which is really time-consuming. This paper presents a universal pipeline that is based on Optical Character
recognition and can be used across all kinds of price tags, and is not dependent on
barcodes or any particular type of price tag. This project uses various image-possessing
techniques to determine and crop the Area of Interest. It detects the price of the product
and the name of the product by filtering the OCR outputs based on the area and
dimensions of the bounding boxes of the text detected. Additionally, the presented
pipeline is also capable of capturing discounted prices, if any, for the products. It has
been tested over price tags of five different types, and the accuracy ranges from 78% to
94.5%.
The Value Alignment Problem: Building Ethically Aligned Machines
Page: 220-233 (14)
Author: Sukrati Chaturvedi*, Chellapilla Vasantha Lakshmi and Patvardhan Chellapilla
DOI: 10.2174/9789815079210123010017
PDF Price: $15
Abstract
Autonomous systems are increasingly being employed in almost every
possible field. Their level of autonomy in decision-making is also increasing along with
their complexity leading to systems that will soon be making decisions of utmost
importance without any human intervention at all or with the least human involvement.
It is imperative, therefore, that these machines be designed to be ethically aligned with
human values to ensure that they do not inadvertently cause any harm. In this work, an
attempt is made to discuss the salient approaches and issues, and challenges in building
ethically aligned machines. An approach inspired by traditional Eastern thought and
wisdom is also presented.
Cryptocurrency Portfolio Management Using Reinforcement Learning
Page: 234-248 (15)
Author: Vatsal Khandor*, Sanay Shah, Parth Kalkotwar, Saurav Tiwari and Sindhu Nair
DOI: 10.2174/9789815079210123010018
PDF Price: $15
Abstract
Portfolio management is the science of choosing the best investment policies
and strategies with the aim of getting maximum returns. Simply, it means managing the
assets/stocks of a company, organization, or individual and taking into account the
risks, and increasing the profit. This paper proposes portfolio management using a bot
leveraging a reinforcement learning environment specifically for cryptocurrencies
which are a hot topic in the current world of technology. The reinforcement Learning
Environment gives the reward/penalty to the agent, which helps it train itself during the
training process and make decisions based on the trial-and-error method. Dense and
CNN networks are used for training the agent to taking the decision to either buy, hold
or sell the coin. Various technical indicators, like MACD, SMA, etc., are also included
in the dataset while making the decisions. The bot is trained on 3-year hourly data of
Bitcoin, and results demonstrate that the Dense and CNN network models show a good
amount of profit against a starting balance of 1,000, indicating that reinforcement
learning environments can be efficacious and can be incorporated into the trading
environments.
Subject Index
Page: 249-253 (5)
Author: Gyanendra Verma and Rajesh Doriya
DOI: 10.2174/9789815079210123010019
PDF Price: $15
Introduction
This book is a detailed reference guide on deep learning and its applications. It aims to provide a basic understanding of deep learning and its different architectures that are applied to process images, speech, and natural language. It explains basic concepts and many modern use cases through fifteen chapters contributed by computer science academics and researchers. By the end of the book, the reader will become familiar with different deep learning approaches and models, and understand how to implement various deep learning algorithms using multiple frameworks and libraries. The second part is dedicated to sentiment analysis using deep learning and machine learning techniques. This book section covers the experimentation and application of deep learning techniques and architectures in real-world applications. It details the salient approaches, issues, and challenges in building ethically aligned machines. An approach inspired by traditional Eastern thought and wisdom is also presented. The final part covers artificial intelligence approaches used to explain the machine learning models that enhance transparency for the benefit of users. A review and detailed description of the use of knowledge graphs in generating explanations for black-box recommender systems and a review of ethical system design and a model for sustainable education is included in this section. An additional chapter demonstrates how a semi-supervised machine-learning technique can be used for cryptocurrency portfolio management. The book is a timely reference for academicians, professionals, researchers and students at engineering and medical institutions working on artificial intelligence applications.